Apparatus for cutting prisms



Q 1946. W.OWENY-ETAL 2,408,530

APPARATUS FOR CUTTING PRISMS Filed April-1 1, 1944 1 8 Sheets-Sheet 1 (4/11. 1.10M -0wN W A44 6.- PEC t- 6 w. OWEN ,En 2,408,530

APPARATUS FOR CUTTING PRISMS l Filed April 11, 1944 8 Sheets-Sheet 2 Oct'. 1,.1946'.

w. o w N ETAL APPARATUS FOR CUTTING PRISMS s Shets-Sheet 3 Filed April 11, 1944 Oct. 1,-1946. V WlOWEN EIIAL 2,408,530

APPARATUS FOR CUTTING PRI SMS Filed April 11, 1944 8 Sheets-Sheet 4 Oct. 1, 1946.

w. OWEN ETAL APPARATUS FOR CUTTING TRISMS Filed April 11, 1944 8 Sheets-Sheet 5 I am W/L L /nM OWEN Oct. 1, 1946.

W. OWEN EI'AL APPARATUS FOR CUTTING PRISMS Filed April 11, 1944 8 Sheets-Sheet a ld/LL/HM Owav ///4A/ 6: P'cK Oct. 1, 1946; w. OWENETAL Q APPARATUS FOR CUTTING PRISMS Filed April 11, 1944 s Sheets-Shet 7 3 4/141. 1km 5M5 APPARATUS FOR CUTTING PRISMS w. OWEN ETAL ZAEQMBBQ 1 Filed April 11, 194 $2 Sheets-Sheet 8 Patented Oct. 1, 1946 3 PATE NT OFFICE APPARATUS FOR CUTTING PRISMS William Owen, Pittsburgh, and Ivan G. Peck, Ford City, Pa., assignors to Pittsburgh Plate Glass Company, a corporation of Pennsylvania Application April 11, 1944, Serial No. 530,576

This invention relates to cutting apparatus and it has particular relation to apparatus designed to cut or saw off sheet. I

One" object of the invention is to provide an improved apparatus for cutting off pieces of glass of predetermined shape from a body of glass.

Another object of the invention is to provide an improved apparatus for cutting prisms from a slab or plate of glass.

12 Claims. (Cl. 12514) pieces' of glass from a slab or Another object of the invention is to provide and repositioning a glass plate for successively cutting off prisms of symmetrical form.

Another object of the, invention is to provide an improved method of sawing a glass plate into the form of prisms.

A conventional method'of cutting relatively thin or even very thick glass involves the use of a diamond cutter, or scoring wheel, which merely scores or cuts the glass surface. The glass is then cracked or snapped along the scored line. This operation which is referred to as running cuts is practical for ordinary plate or sheet glass, although the'snapped edges are not entirely uniform. The snapped edges follow generally a plane at right angles to the surface of the glass. However there is no definite control as to direction of breaking and the edges may be ragged.

When it is desired to cut glass at angles to the plate surface, scoring the glass and running cuts in the manner mentioned above do not apply. For example, "in making prisms, a plate or slab of glass must be cut entirely "through its body in order to provide theproper' shape. A practical structure embodying our invention for this purpose includes an apparatus which cuts a slab of glass in predetermined planes by employing rotatable disk cutters which are so designed as form of slabs of rectangular cross-section-and the cutters are applied to the edges or narrower sides of the slab. r

In the drawings: I Fig. 1 is a side elevation of a cutting apparatus;

Fig. 2 is a front elevation of the structure shown in Fig. 1; Fig. 3 is a combined horizontal section and plane of the apparatus, the section being taken substantially along theline III-III of Fig. 2 Fig. 4 is a vertical section of a workclamping and positioning chuck included in the apparatus; Fig. 5 is a combined plan and crosssection of the chuck, the section being taken substantially along the line V--V of Fig. 4; Fig. 6 is a cross-section of the chuck taken substantially along the line VI-VI of Fig. 4; Fig. 7 is a fragmentary cross-section of a turret portion of the chucktaken substantially along the line VIIVII of Fig, 5; Fig. 8 is a plan of the chuck and associated elements with portions being omitted to emphasize details; Fig. 9 is a fragmentary plan of a glass positioning bufier and its'mounting; Fig. 1 0 is a fragmentary crosssection taken, substantially along the line XX of Fig.- 9; Fig. 11 is a fragmentary perspective of portions of the chuck; Fig. 12 is a fragmentary vertical section of a dash-pot arrangement employed in the apparatus, the section being taken substantially along the line XIIXII of Fig. 2; Fig. 13 is a bottom plan of the piston employed as a part of the dash-pot; Fig. 14 is a combined side elevation and vertical section of an alternate form of chuck structure; Fig. 15 is a plan of the chuck shown in Fig. 14; Fig. 16 is a combined'plan and longitudinalsection of the chuck horizontal plane.

shown inFig. 14, the section being taken substantially along the line XVI-XVI of Fig. 15; Fig. 17 is a cross-section taken substantially along the line XVII-XVII of Fig. 16; and Fig. 18 is a; perspective of a prism produced by the apparatus;

In practicing theinvention a stationary frame [0 is provided with upright front and rear sides I2 in which two swinging cutter frame M are supported, and wherein each cutter frame is mounted upon horizontal bearings I5 carried by the sides l2. The bearing axes of the two outter frames are parallel and disposed in the same Each cutter frame includes a. lower relatively heavy or weighted cradle section It upon which an electric motor 20 is mounted in such manner, that the weight of each-motor is carried below the axesofthe bearings l5 and the centeroi gravity of the entire swinging frame is below such bearings. A horizontal driven shaft 2| of ,each motor is axially aligned with respect to the bearings 15 of the cutter frame upon which the motor is mounted.

"Transmission pulleys Hand 25 which are rigidly secured upon each motor shaft 2i and upon having an outer cutting section 3! (Fig. 8) in which very hard abrasive material capable of cutting or sawing glass is incorporated. The cutting portion of each disk 30 is infused primarily with diamond particles. Arcuate casings or housings 34 are rigidly mounted upon the bearing supports 29 and partially surround the disk cutters in such manner that they cover side portions thereof while opposed cutting edges project therefrom. These casings include cover'plates 35 secured to the casing body by means of bolts 35. i

It is to be noted that the disk cutters 39 are disposed in the same vertical plane at the same distance from the respective axes offthe bearing supports l5 and they are therefore movable in arcs toward and away from each other about these bearing supports.

A pair of cables 48 are connected to brackets M (Fig. 3) mounted rigidly upon the upper portions of the swinging frames [4 and these cables are trained over pulleys 45, which are mounted rotatably on stud shafts 46, each rigidly carried upon a plate 41. Stationary portions of the frame It support these plates which are bolted thereon. Each cable 48 runs horizontally from a pulley d5 at one side of the upperfrarne to an upper portion of the swinging frame M disposed adjacent the opposite side of the eg' paratus.

Each cable at its lower end is connected to a dash-pot 58 (Figs. 12 and 13) which includes a vertical rod 5! having a piston 52 rigidly secured thereon and operable in a vertical cylinder 53 containing a suitable fluid 54. The cable is fastened to the upper'e'n'dlof the rod 5!. ,The c'yl-' inder 53 i covered by a cap '55 having an opening 51 to slidablyreceive the rod 5| and this cap is screw-threaded on the upper cylinder end.

The lower portion ofthe cylinderis in the form of a relatively large disk base 58"through which bolts 5% are disposedto secure the cylinder'rigidly upon a hour or other suitable support.

An irregular passage 68 communicates with opposite sides of the piston 52 through the body thereof. passage is controlled by a ball valve '6] held against a valve seat 82 formed in the piston around the passage, A plate 64 which is secured by screws 65 to the bottom of the piston traverses the passage without closing it, and a coil spring 61 is compressed between the plate 64 and the valve 6! normally to maintain the latter closed against the seat 62.

A bleeder valve 10 is adjustably screw-threaded in a passage H, also extending through the piston body for communication from the upper to the lower side thereof. This valve is in the form of a small tube having a lower beveled wall 72 One-way flow of the fluid through this (iii adapted tobe closed against a bevel d seat "i i in the passage. When the valve is seated it closes openingslE formed through the beveledwalljof the valve. Weights Hi which are notched, as indicated at F9, are strung upon upper portions of the vertical rods 5| upon which they are supported by a collar that is rigidly mounted upon the rod. These weights, through their connections to the upper portion of the swinging cutter frames, are sufficiently heavy to overcome the weight of the motors and the lower weighted portions of the swinging frames l4 and thu force the cutter disks toward each other. The relative movement of the cutters toward each other is regulated by the amount of fluid permitted to flow through each bleeder valve '10 and the resistance of the fluid to such movement.

A chuck for supporting a glass slab or plate wt to be cut by the disk cutters 39 is mounted upon a vertical bearing disk 32 partially cut away, as indicated at Hi3, and rotatable about a horizontal axis in a segmental internal bearing 58!: formed in a vertical plate 105 that is rigid with the apparatus frame If]. Radial flanges Hi6 forming parts of the segmental bearing disk define a bearing channel I07 between which marginal edges of the upright frame plate defining the bearing I64 are disposed.

The bearing disk 102 includes a radial shelf 569 which is wider than the thickness of the disk and supports side plates I Hi rigidly bolted thereto along their lower edges, as indicated at H2. Upper and lower plates H4 and H5 are secured between the side plates and are welded thereto to define a rigid box-like structure. The lower plate H5 (Fig. 11) is fitted in notched portions H6 adjacent the rear ends of the side plates HE! and fits at its front or lower edge against an edge of the shelf I99. The inner or upper surface of the plate H5 constitutes in effect a continuation of the upper surface of the shelf [89, and these surfaces are the same plane. The opposite inner surfaces of the plates l|4ll5 converge symmetricaily toward the center line, indicated at Hi (Fig. 4), of the chuck. Thus this center line includes the axis of rotation of the bearing disk Hi2. Opposed wedges I29 having their outer sides flush with the inner surfaces of the plates lid-H5 at substantially their clamped or closed position are so designed that their inner surfaces are disposed in substantially parallel plane equally spaced fromthe center line of the chuck when clamped on opposite sides of the glass slab lei. Relatively thin liners l2] in the form of metal plates lieflush against the inner parallel surfaces of the wedges I29 and the outer liner ends are bifurcated to form outwardly bent arm i213 which are further bent or hooked, as indicated at H5, over the outer extremities of the upper and lower plates H4 and H5; The outer end portions l2'6 of the wedges are'reduced and .each reduced portion lies between the arms i24 of one of the liners. The glass slab Hit fits between theseliners. r

Centering strips I27 are disposed along the inner sides of the plates 1 iii to engage opposite edges of the glass plate Ml. Set screws 29 threaded through the side plates iitl'pro'vide for refinements of adjustment in precisely centering the glass between the wedges. These Strips which are loosely disposed between the Wedges are sufficiently narrow to permit requisite movement of the wedges toward each other, and to accommodate glass slabs of different widths. The outer ends of the strips are bent over the outer ends of the side plates Hi), as indicated at 30, to prevent such strips from being accidentally displaced.

The side plates Hi! and the upper and lower plates !l4ll5, which define a rigid box-like structure, support at their outer end portions segmental lugs l35 (Fig. 5) welded thereon to provide a screw-threaded structure upon which an internally threaded turret I36 is rotatably mounted. The axis of the turret is Coincident with thecenter line II1. Handles I31 on the turret facilitate its manual rotation upon the chuck-which is rigidly mounted, as indicated above, on the bearing disk I02.

circularplate-or bearing disk I40 mounted uponthe. upper-side of the turret has a central pemn I4I therein through which the glass extends and in which oppositely disposed hinges I42 are-mounted by welding one wing I43 of eachihinge-to the upper side of thedisk. The other wings I45 ofthehinges extend downwardly andfare welded to the outer end portions of the respectivewedges I20. It-is to benoted that tl e otiter" sidesfofthe wedges I20 are sloped 'awayfrom the;planes'of the oppositesides of the g1ass p1ate'IOI.

' v A, retainin ring I46 which covers the outer marginal portions of the disk I40 is held in properly spaced relation to the turret by means of lugs I41 welded to the ring and bolted, as indicated at I49, to the outer walls of the't'urret. The ring I46, lugs I41; and upper side' of the turret I36 thus provide a bearing which is rotatable relative to the disk I40 which is posi tively connected to the wedges in the manner specified. "From this "description it will be apparent that, in response to rotation of the turret, the wedges I20 are moved in substantially axial directions along the inclined opposed surfaces of the upper and lower plates I I4-I I5, while.

at the same time they are pivotable upon the hinges I42 so that they can be pivoted to spread their lower ends and to release the gripped glass plate. *Conversely these wedges can clamp the plate of glass disposed'between them after such wedges are forced downwardly and at the same time. their lower end portions are forced toward each other by the converging inner surfaces or 'walls of the plates II4-I I5. Since thewedges are symmetrical, glass plates of different thicknesses can be centered with equal facility.

It. will be observed that the rigidstructure of theychuck (Figs. 1 and 4) rests upon a stop I50 formed on the stationary upright bearing plate I05. This stop is so positioned that the chuck and, in consequence its center line -I I1, is dis- 'posed'at an angle of 45 to the vertical." By bodily shifting the chuck by the handles I31, it can be'thrown' to the positionshown inbroken lines of Fig. 1 and through an angle of 90. The

' Inorder to gage This buffer includes a side plate I54 and a central flange I56, the latterof buffer can be adjusted towardandaway from the end of the chuck. A pad I of rubber, or like 'material, covers the face of the bufferand is cemented or otherwise firmly secured thereto;

The upper portion of the apparatus frame rigidly supports a basin I6'I immediately below the disk cutters 30 in such manner that the upright Y the glass plate, a buifer I52 (Figs. 8-10) is'mounted upon an inner portion of the bearing disk I02.

upper plate II4 then restsupon a stop I5'I which M also'positions the chuck atanangle of 45 to "the vertical. In either position the handles of the turret can be operated'to loosen or tighten. the wedges I20 with respect-to the glass disposed 'therebetween.

chuck supporting plate I05'traverses it and exw. tends centrally of a trough portion I62 leading 6 laterally' from'thebasin'. The trough and u rightplate are disposed substantially midway between the swinging cutter frames I4. The trough I6 2-extends to the "rear side of the apparatus and communicates witha rear tank I63 through aspout I64 attached to, and leading downwardly from; the trough. Suitablebrackets I65 carry the tank upon theframe. The basin I6I also communicates with. the tank. I63 by means. of conduits J61 attach'edattheir inner ends to the lower side of the basin I6I. Their outer ends are disposed in the tank I63. v

I A pump I69 of conventional construction which is mounted upon the tank- I63-communicates with the interior thereof and with fluid supply pipes I10; Upper. end portions of the pipes are mount- 1 ed upon'metal'nozzles I1I,- which are attached to the housings 34 of the respective cutter disks 30. A'brac'ket' I 12 supports each nozzle which is bolted in place" in connection with a block I14 in which the nozzle and bolts 15 are mounted. The bolts-I15 extend through the block and bracket to" provide a rigid mounting. 'The nozzles are directed downwardly immediately adjacentlthe perimeter of thedisk cutters 30 andto such position that continuous streams of water, or other fluid, can be directed tothe points of contact between the diskcuttersfii and the glass plate. Stops I16. formed'uponthe plates 41 (Fig. 3)

which supports the stud shafts .46 are disposed in the path ofm'ovement of the cutter frames I4 against which they rest their openor outwardly disposed positions." As these frames H4 approach such position latches I19, which are secured at their inner ends upon the respective cutter housings by means of bolts I89, automatically l'atch behind the upper opposite edges of the basin I6I. The outer end portions of the latches have beveled surfaces I81 which ride over the edges of the basins and then the end of the latch drops to catch latch shoulders I82 behind these edges. The latches can be released man ually'by manipulating handles i34 welded thereon.'- Ea'clilatch I19 is normally maintained in a substantially horizontal. position by means of one of the housingzassembling bolts 33 against which it normally rests.

In' operating the apparatus so far described, the turret I36 i'sadjusted so as to permit the glass IilI to be inserted between the wedges I20. The glass isl inserted to such position that its inner end rests against the buffer I52 and is centered 'by manipulating the set-screws I29. as well as by rotating the turret to tighten the wedges.

sincethe glass .so positioned is ready to be cut,

"Thecuttersare: thus urged from opposite directions against the glass as they are rotatably driven-bythe motors 20, The cutting or sawing operation thus initiated from opposite directions continue's until a pair of stops I90 bolted on the cutter housingsmeet and arrest movement of the cutter frames .toward each other. At the time of contact of the :stops, the disk'cutter edges are sufiiciently "spaced'to avoid contact with each "other: Theglassis then almost entirely severed. By'man'ipulating one or both'ofthe handles I9i mounted'rigidly onvthe housing 34, the cutter assemblies can'be moved in the same direction 3 until-one of 'thecutters while still rotating cuts through theremainingportion of-the glass. The

operatorthen removes the severed piece of glass.

Y The disks to can be moved in either direction to finish the severing operation in this manner by one or the other cutters. Alternately, the operator can move one cutter frame to its open or inoperative position and secure it there by its latch I19, while the other cutter automatically completes the severing of the glass under the pressure exerted by the weights [6. The rate of cutting can be regulated by adjusting the bleeder valve I0. It will be noted that in severing the glass in this manner the plane of cutting is disposed at an angle of 45 to the center line I I! of the chuck,

The turret I36 is then rotated to relieve the clamping action upon the sides of the glas to such extent that the latter can be slid forwardly until the extremity of the severed portion is positioned against the buffer I352 The chuck and disk I02 are then shifted 90 in the bearing I04 to the position shown in broken lines of Fig. 1. In this position of the chuck, the disk cutters are applied in the same manner as that described above. In connection with the second cutting action, as in the first, the plane of cutting is vertical, but since the chuck I has been shifted through an angle of 90. from its position resting upon the stop I50 to a position in which it rests upon the stop I5I, the plane of cutting for the second operation will be at right angles to the first plane of cutting. Likewise, since the axis of rotation of the bearing disk I02 and the axis of rotation of the turret intersect substantially at the center of the area of cutting, as indicated at )2, the cutting of the glass in alternate positions of the chuck produces prisms I93, such as that shown in Fig. 18. Each prism comprises equal faces I95 disposed at right angles to each other and a third face I95 disposed at angles of 45 to the equal faces. After the prisms have been cut in this manner they are ground and polished to finish the product.

An alternate arrangement of glass positioning chuck 200 is shown in Figs. 14-16 in which a rigid plate 20I is mounted on the apparatus frame I0 in the same manner as the plate I05 and corresponds substantially thereto. The chuck 200 presents a glass plate 202 to the disk cutters 30 at substantially the same position as that shown with reference to the construction already described, and hence repetition of description of the cutters with their motors and control devices is not necessary.

The chuck 25.0 comprises side plates 204 and upper and lower plates 265 rigidly secured together by welding, or the like, to enclose opposed slidable wedges 256 that are faced with liners 201 between which the glass plate is inserted. Metal centering strips 209 are disposed loosely adjacent the side plates .of the chuck and are adjustable against the edges of the glass by means of set- .screws 2H), which are threaded through these plates. The liners 201 and centering strip 209 are bent or hooked over the outer ends of the plates 235 and 204, as indicated at 2 and 2I2, respectively. Outer ends :of the wedges are reduced in width and are rigidly connected by welding .to hinges 2 I4, which are, in turn, rigidly connected to a circular bearing disk 2I5 rotatable axially of a turret 2I6 between an outer retaining ring 2 I7 and the turret. Handles 2I9 mounted on the turret provide for its manual manipulation. Lugs 220, welded to the ring 2 I I at spaced locations around its circumference, are secured to the turret by means of screws HI and serve to space the ring properly from the turret. The

the plates 205, thus clamping the glass in thesame manner as that previously described with reference to the operation of the chuck I00.

The collar 224 extends a suflicient distance inwardly beyond the edge of the turret to provide for a cylindrical bearing surface 225 formed thereon, which is axially aligned with the turret. A bearing shoulder 226 is formed in connection with the formation of the bearing surface.

An additional bearing collar 230, which is welded to the inner or lower end portion of the box structure of the plates 204 and 205, is provided with a bearing shoulder 23I adjacent its inner edge. The bearing portions of the collars 224 and 230 which are axially aligned are rotatably mounted in bearing rings 232 and 233 which are, in turn, mounted rigidly by welding in a substantialiy semi-cylindrical bearing support 234. The latter constitutes a rigid portion of, or is welded upon, the upright frame plate 20I. A narrow bearing flange 235 is formed on the lower inside edge of the lower ring 233 to cooperate with the shoulders 226 and23I in maintaining the chuck in its proper position in the bearing. The chuck 200 is supported upon the plate 201 at an angle of 45 to the vertical.

A handle 236 which is rigidly secured by welding or otherwise to one of the side plates 204 extends laterally therefrom and can be manipulated to rotate the chuck about its axis through an angle of 180. The angle through which the chuck is rotatable is gaged by the semi-cylindrical support 234, the opposite edges of which serve as stops at the limits of the 180 movement. After the disk cutters 30 sever the glass, as indicated in Fig. 14 and as previously described, the chuck is rotated through an angle of 180 about its axis, and then the turret is operated to permit resetting of the glass. In this manner alternate cuts through the glass will be at to each other, although opposite edges .of the glass are alternately presented to one of the cutters.

A buffer 240 similar to the buffer I 52 is mounted upon the frame plate 20l and comprises a rubber facing 24I cemented to a flange 242 which constitutes a part of a side plate 243 disposed at right anglesthereto' A slot or guide 245 in the plate 20I receives a bolt 246 which adjustably clamps the side plat 243 to the frame 2%. A central guide flange 241 integral with the side plate 243 is guided in the slot to facilitate the adjustment of the buffer. This buffer operates in the same manner as the buffer I52 in gaging the position of the glass plate.

In connection with the operation of the several mechanisms described above, the glass plates can be sawed or'cut at proper angles to produce the types of prism required. After the cutting operation has been completed the prisms, which are somewhat rough along their sawed surfaces, are subjected to finishing operations, such as grinding and polishing the surfaces until they exhibit the required reflecting characteristics.

Although illustrative forms of the invention have been shown and described in detail, it will be apparent to those skilled in the .art t hat;the invention is not specifically limitedto sucn'fornis, butiithat various changes can be made therein without departing from the spirit of the invention or from; the scope of the appended claims.

We claim: 7 1. Aglass sewing of disk cutters disposed in substantially the same plane, means supporting said cutters for movement toward and away from each other in said plane a support for positioning a glass slabbe tween saidcutters, means connected to the cut ters and urging them towardeach otheragainst opposite portions of the glass slab, stopson the cutter supporting means to limit movement of the cutters toward each other and permitting concurrent movement ofthe cutters in the same direction after said stops engage each other, and power means connected to the cutters for rotat ably driving them H i I 2. A glass sawing apparatus comprisinga pair of-abrasive disk cutters disposed in substantially the same plane for movement toward and away from each other in said plane, a support forpositioning a glass slab between said. cutters,

swingable frames supporting the respective cut-f ters and having weight member connected there: to to urge the cutters toward eachother in cutting relation against opposite portions of the glass slab, bearing supports for the frames, re-

apparatuscomprising a pair tarding means operatively connected to the cutter supporting frames and yieldably disposed in opposition to the forc exerted by the weight members during the cutting operation to determine speed of movement of the cutters toward each other, and power means connected to the cutters for rotatably driving them.

3. A glass sawing apparatus comprising a pair of cutters disposed in substantially the same plane, a pair of cutter supporting frames carrying the cutters toward and away from each other in operative relation in said plane, means for supporting a glass plate between said cutters, actuating means normally urging the cutter sup- 7 porting frames toward each other to present the cutters in cutting relation to the glass from opposite directions, retarding means connected to the cutter frames to regulate rate of feeding of the cutters against the glass, and power means connected to the cutters for driving them in cutting relation while they move toward each other.

4. A glass sawing apparatus comprising a pair of cutters disposed in substantially the same plane, a pair of cutter supporting frames carrying the cutters toward and away from each other in operative relation in said plane, means for supporting a glass plate between 'said' cutters, actuating means normally urging the cutter supporting frames toward each other to present the cutters in cutting relation to the glass plate from opposite directions, dash-pot units connected to the cutter frames and normally urging them toward each other in opposition to said actuating means to regulate the rate of feeding of the cutters against the glass plate, and power means connected to the cutters for driving them in cutting relation while they are moved toward each other.

5. A glass sawing apparatus comprising a pair of cutters disposed in substantially the same plane, means supporting said cutters for movement toward and away from each other in said plane, a chuck for supporting a glass plate between said cutters, reversible means operatively connected to said chuck for alternately presenting and power meanslconn'ected to the cutters for driving them in 'cuttingrelation. v. 6. Ina glasssawing' apparatus, a pair of cutters disposed in 'substantiallythe same plane,,a frame structure supporting said'cutters for movement towardrand away from each other in saidplane, a chuckhavingv ,a centerlline intersecting said plane at an angle of,predetermineldjvalue, means in 'said chuck for gaging the work thereinalon'g said center lineto a, position to,.be severed by" said cutters, said chuck and supporting vffra'me including chuck 'shifting'flmeansfor.alternately presenting opposite port ns ofthe work in said plane at angles equal ft'o said angle of ,predeter mined value, means connected to'the cutters for urging them toward eachlo-th'er against. opposite portions of the work held by the cutter, and'powe'r vmeans connecte'dtofthe cuttersfor drivingthemf in',cutting';re lation. a

V n 7. In a glass sawing apparatus, a pair ofv cutters disposed in substantially the sameplane, frame i structure supporting said cutters for movement toward and away from each other in said plane, a bearing in said frame structure having its bearing axis'disposed at an angle to: said plane, a chuck unitrot'a'table in said bearing and having a centercline substant ally'coaxially disposed with respect to'said bearing axis, stopmeanson'the frame engageable with, the chuck and limiting rotative movement thereof within an angle, of about'said bearing axis to present opposite edges of the work in the chuck to the cutters and at equal angles to the plane of cutting, means associated with the chuck for gaging the work therein with respect to the plane of cutting and along the center line of the chuck, means connected to the cutters for urging them toward each other against-opposite sides of the work, and

power means connected to the cutters for driving them in cutting relation.

8. Ina glass sawing apparatus, a pair of cutters disposed in substantially the same plane, frame structure supporting said cutters for movement toward and away from each other in said plane, a bearing in said frame structure having its bearing axis dis osed at an angle to said plane, a chuck unit rota able in said bearing and having a center line substantially coaxially disposed with respect to said bearing axis, stop means on the frame engageable with the chuck and limiting rotative movement thereof within an angle of 180 about sa d bearing axis to present opposite edges of the work in the chuck to the cutters and at eoual angles to the plane of cutting, means associated with the chuck for gaging the work therein with respect to the plane of cutting and along the center line of the chuck, a buffer adjustably mounted on said chuck unit in substantial alignment with the center line of the chuck to gage the extent of advancement of the work to be out after each cutting operat on, means connected to the cutters for urging them toward each other against opposite sides of the work, and power means connected to the cutters for driving them in cutting relation.

9. In a glass sawing apparatus, a pair of cutters'disposed in substantially the same plane, a frame structure supporting said cutters for movement toward and away from each other in said plane, a bearing in said frame having its bearing axis disposed in said plane, a chuck rotatable in said bearing and having a center line intersecting said bearing axis, stop means on the frame structure engageable with the chuck to limit movement of the latter about said bearing axis to positions of equal angular relation to said plane of cutting on opposite sides thereof, and stop means associated with the chuck for gaging the work therein along said center line and with respect to said plane of cutting, means connected to the cutters for urging them toward each other against opposite sides of the work, and power means connected to the cutters for driving them in cutting relation.

10. In a glass sawing apparatus, a pair of cutters disposed in substantially the same plane, a frame structure supporting said cutters for movement toward and away from each other in said plane, a bearing in said frame having its bearing axis disposed in said plane, a bearing disk cut away centrally and mounted in said bearing in a second plane disposed substantially at right angles to the plane of cutting, a chuck mounted upon said disk for movement therewith in said bearing and having a center line in said second plane intersecting said bearing axis, stop means on the frame engageable with the chuck to limit movement of the latter about said bearing axis to positions of equal angular relation to said plane of cutting on opposite sides thereof, stop means associated with the chuck for gaging the work therein along said center line and with respect to the plane of cutting, means connected to the cutters for urging them toward each other against opposite sides of the work, and power means con- 12 nected to the cutters for driving them in cutting relation.

11. A chuck comprising an open ended, hollow body having opposed interior surfaces converging towards an open end of said body, opposed wedges having surfaces slidably engaging respectively said converging surfaces for movement toward and away from each other to grip and release a piece of work in response to sliding movement of the wedges in the body, lining sheets covering the inner surfaces of the wedges and connected to said body to permit sliding movement of the wedges with respect thereto, and actuating means adjustably mounted upon said body and engaging the wedges to move them along said converging surfaces.

12. A chuck comprising an open ended, hollow body having opposed interior surfaces conv rging towards an open end of the body, opposed wedges having surfaces slidably engaging respectively said converging surfaces for movement toward and away from each other to grip and release a piece of work in response to sliding movement of the wedges in said body, centering strips disposed in the body adjacent opposite edges of the wedges, means in the body movably engaging the strips to center the work in said body, and actuating means adjustably mounted upon said body and engaging the wedges to move them alon said converging surfaces.

WILLIAM OWEN.

IVAN G. PECK. 

